Evidence for a high-z ISW signal from supervoids in the distribution of eBOSS quasars

Abstract

The late-time integrated Sachs-Wolfe (ISW) imprint of R 100~h-1 Mpc super-structures is sourced by evolving large-scale potentials due to a dominant dark energy component in the model. The aspect that makes the ISW effect distinctly interesting is the repeated observation of stronger-than-expected imprints from supervoids at z0.9. Here we analyze the un-probed key redshift range 0.8<z<2.2 where the ISW signal is expected to fade in , due to a weakening dark energy component, and eventually become consistent with zero in the matter dominated epoch. On the contrary, alternative cosmological models, proposed to explain the excess low-z ISW signals, predicted a sign-change in the ISW effect at z≈1.5 due to the possible growth of large-scale potentials that is absent in the standard model. To discriminate, we estimated the high-z ISW signal using the Millennium XXL mock catalogue, and compared it to our measurements from about 800 supervoids identified in the eBOSS DR16 quasar catalogue. At 0.8<z<1.2, we found an excess ISW signal with A ISW≈3.62.1 amplitude. The signal is then consistent with the expectation (A ISW=1) at 1.2<z<1.5 where the standard and alternative models predict similar amplitudes. Most interestingly, we also detected an opposite-sign ISW signal at 1.5<z<2.2 that is in 2.7σ tension with the prediction. Taken at face value, these moderately significant detections of ISW anomalies suggest an alternative growth rate of structure in low-density environments at 100~h-1 Mpc scales.